Group includes: Nguyen Vu Tue Minh (Chloe) & Eduardo Martinez Toribio
//OVERALL DESIGN OBJECTIVE
//PRECEDENT: TEMPORARY PARAMETRIC PAVILION
//COMPUTATIONAL DESIGN SYSTEM USING CRYSTALLON
//MATERIAL RESEARCH: GLASS-REINFORCED RECYCLED PET (GR-RPET)
//ANALYSIS
Total Mass: 191.8 (kg)
Natural Vibration Analysis Frequency: 9.45 (Hz)
Max Displacement: 0.125 (m)
//OPTIMISATION: GOALS & TARGET
//OPTIMISATION: RESULTS
//OPTIMISATION: LIGHTNESS VS STIFFNESS
Baseline: (191.8 kg, 124.5 mm) → FAIL
Optimized: (405.9 kg, 63.6 mm) → PASS
Optimisation explores a family of solutions; improving stiffness typically increases mass.
Multi-objective search: minimise mass and deflection simultaneously.
Constraint-driven selection: solutions must satisfy δmax < 80 mm (L/100)
Why mass increased: achieving serviceability required higher member stiffness.
Final pick: 63.6 mm deflection (PASS) while staying < 600 kg (405.9 kg).
//CIRCULATION SCHEME
Single Directional flow
Circulation path
//CONCLUSION AND FINAL OUTCOME
Using voxel-based form generation and performance-driven optimization, we designed a GR-rPET lattice pavilion whose structurally informed geometry reduces deflection from ~0.125 m to ~63.6 mm (meeting L/100) while staying under 600 kg (~405.9 kg), demonstrating an integrated parametric workflow linking architectural intent, structural logic, and material efficiency.
